Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A region on chromosome 14q32.1 is often involved in chromosomal translocations and inversions with one of the T-cell receptor loci in T-cell lymphoproliferative diseases. The breakpoints of the different rearrangements segregate into two clusters; a cluster due to inversion on the centromeric side and a cluster due to simple balanced translocations on the telomeric side. If the target gene activated by these different types of chromosomal rearrangements is the same, the gene must be localized between the two clusters of breakpoints in a region of around 160 kb. Within this breakpoint cluster region, we isolated two genes; namely, TCL1 and TML1/TCL1b genes. In the course of characterizing the TML1 gene, we further identified a third novel gene, which we named TCL6 (
T-cell leukemia/lymphoma 6
), from a region 7 kb upstream of the TML1 locus. The TCL6 gene expressed at least 11 isoforms through very complex alternative-splicing, including splicing with the TML1 gene. Those isoforms encode at least five open reading frames (ORFs) with no homology to known sequences. The localization of the proteins corresponding to these ORF was determined by fusing green fluorescence protein at the carboxyl terminal of each ORF. ORF141 and ORF72 were observed in the cytoplasmic region, while ORF105, ORF119, and ORF163 were predominantly localized in the nuclear region. Since the TCL6 gene was expressed in T-cell
leukemia
carrying a t(14;14)(q11;q32.1) chromosome translocation and was not expressed in normal T-cells (just like the TML1 and TCL1 genes), it is also a candidate gene potentially involved in leukemogenesis. Oncogene (2000).
...
PMID:Identification of the TCL6 genes within the breakpoint cluster region on chromosome 14q32 in T-cell leukemia. 1085 Oct 82
The TCL1 locus on human chromosome 14q32.1 is activated in T-cell leukemias by translocations and inversions that juxtapose it to regulatory elements of T-cell receptor genes. We isolated and characterized four genes at this locus, TCL1 and TCL1b (T-cell
leukemia
/lymphoma 1 and 1b), and
TNG1
and TNG2 (TCL neighboring genes 1 and 2) all of which are overexpressed following rearrangements involving 14q32.1. TCL1 and TCL1b show 60% similarity and are represented in the mouse by a cluster of six homologous genes. In humans TCL1 and TCL1b show similar expression patterns: They are expressed mainly in CD4-/CD8- immature T-cells, pre B-cells and virgin B-cells. Expression decreases significantly at more mature stages of B-cell development. Activation of TCL1 and/or TCL1b in mature T-cells causes T-cell
leukemia
in humans. The oncogenic nature of TCL1 was confirmed by the analysis of a transgenic mouse model. Functional analysis of Tcl1 revealed its involvement in a PI3-kinase dependent Akt (PKB) pro-survival pathway through its interaction with the Akt kinase which increases Akt's enzymatic activity and promotes translocation of Akt to the nucleus.
...
PMID:The role of TCL1 in human T-cell leukemia. 1160 15
T-cell chronic lymphocytic/prolymphocytic leukemia (T-CLL/T-PLL) is a lymphoproliferative disease derived from immunocompetent post-thymic T cells. Activation (initiation of expression) of the TCL1 locus at chromosome 14q32.1 appears to be the causal event in the pathogenesis of these mature T-cell leukemias. This activation occurs as a result of translocations or inversions that cause rearrangement of the TCL1 (T-cell
leukemia
/lymphoma 1) locus with regulatory elements of T-cell receptor genes. To describe the molecular events that take part in the leukemogenesis of mature T-cell leukemias, we reviewed the literature and our own data on the molecular basis of mature T-cell
leukemia
. This data search revealed that 4 genes have been identified at the TCL1 locus: TCL1, TCL1b,
TNG1
, and TNG2. The expression of these genes is substantially increased following rearrangements involving 14q32.1. Functional analysis of the Tcl1 protein revealed its involvement in an Akt (protein kinase B) prosurvival pathway through its interaction with the Akt kinase, which promotes translocation of Akt to the nucleus and increases Akt's enzymatic activity. The available data provide important insights into the molecular mechanisms of T-cell leukemogenesis that may lead to the development of new drugs for treatment of mature T-cell
leukemia
.
...
PMID:Molecular basis of mature T-cell leukemia. 1171 Aug 97
